Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
ABOUT MESOZOIC PTERIDOPHYLLS
View through CrossRef
Two types of pteridophylls are very common in the Mesozoic era: the Polypodium and the Dipteridaceae. The Polypodium‐type formed by pendulous overtopping is represented in the Mesozoic era by the form‐genus Cladophlebis, in the Paleozoic era by the form‐genus Pecopteris, and today by Dryopteris. Overtopping differs in these three pteridophylls. Nearly all Paleozoic pteridophylls show a catadromic structure. Today pteridophylls with anadromic and combined catadromic/anadromic structures are the dominant ones. The Mesozoic genera demonstrate a transitional structure: catadromic structures are still frequent, but equally frequent are combined catadromic/anadromic structures. Pteridophylls solely with anadromic structures are unknown in the Mesozoic era. The Dipteridaceae‐type is almost exclusively Mesozoic. It is primitive in the dichotomy of the rachis, but advanced in that it is net‐veined. Thus the Mesozoic pteridophylls represent connecting links between Paleozoic and recent leaf‐types. This nature of Mesozoic pteridophylls can be understood only on the basis of the telome theory.
Title: ABOUT MESOZOIC PTERIDOPHYLLS
Description:
Two types of pteridophylls are very common in the Mesozoic era: the Polypodium and the Dipteridaceae.
The Polypodium‐type formed by pendulous overtopping is represented in the Mesozoic era by the form‐genus Cladophlebis, in the Paleozoic era by the form‐genus Pecopteris, and today by Dryopteris.
Overtopping differs in these three pteridophylls.
Nearly all Paleozoic pteridophylls show a catadromic structure.
Today pteridophylls with anadromic and combined catadromic/anadromic structures are the dominant ones.
The Mesozoic genera demonstrate a transitional structure: catadromic structures are still frequent, but equally frequent are combined catadromic/anadromic structures.
Pteridophylls solely with anadromic structures are unknown in the Mesozoic era.
The Dipteridaceae‐type is almost exclusively Mesozoic.
It is primitive in the dichotomy of the rachis, but advanced in that it is net‐veined.
Thus the Mesozoic pteridophylls represent connecting links between Paleozoic and recent leaf‐types.
This nature of Mesozoic pteridophylls can be understood only on the basis of the telome theory.
Related Results
Mesozoic structural characteristics and exploration potential of the offshore Indus Basin
Mesozoic structural characteristics and exploration potential of the offshore Indus Basin
Due to the lack of drilling confirmation and the poor imaging quality of the early seismic data in deeper part, there was a great controversy on the understanding of the strata und...
Cretaceous Volcanic Events in Southeastern Jilin Province, China: Evidence from Single Zircon U‐Pb Ages
Cretaceous Volcanic Events in Southeastern Jilin Province, China: Evidence from Single Zircon U‐Pb Ages
Abstract: Mesozoic volcanic rocks in southeastern Jilin Province are an important component of the huge Mesozoic volcanic belt in the northeastern area. Study of the age of their f...
The Mesozoic of New Zealand: Chapters in the history of the Circum-Pacific Mobile Belt
The Mesozoic of New Zealand: Chapters in the history of the Circum-Pacific Mobile Belt
The Mesozoic includes the later history of the New Zealand Geosyncline, the Rangitata Orogeny that ended the geosynclinal phase, superposing a new structural system, and the beginn...
Highly heterogeneous Late Mesozoic lithospheric mantle beneath the North China Craton: evidence from Sr–Nd–Pb isotopic systematics of mafic igneous rocks
Highly heterogeneous Late Mesozoic lithospheric mantle beneath the North China Craton: evidence from Sr–Nd–Pb isotopic systematics of mafic igneous rocks
The lithospheric mantle beneath the North China Craton changed dramatically in its geophysical and geochemical characteristics from Palaeozoic to Cenozoic times. This study uses sa...
Fault Transportation and Hydrocarbon Accumulation in Offshore Indus Basin
Fault Transportation and Hydrocarbon Accumulation in Offshore Indus Basin
According to the geotectonic analysis and seismic data interpretation, the Offshore Indus Basin is the extension of the Lower Indus Basin in the sea area, with a double-layer struc...
Fault-bounded models of oil–Gas and gas–Hydrate accumulation in the Chaoshan Depression, the South China Sea
Fault-bounded models of oil–Gas and gas–Hydrate accumulation in the Chaoshan Depression, the South China Sea
The Dongsha Basin is a large Mesozoic basin extended from the northern South China Sea (SCS) to onshore South China. Though long-term uplift and denudation occurred since the end o...
Methods of Studying Petroleum Systems in Residual Basins —A Case Study of Mesozoic and Palaeozoic Marine Basins in Southern China
Methods of Studying Petroleum Systems in Residual Basins —A Case Study of Mesozoic and Palaeozoic Marine Basins in Southern China
Abstract Through an integrated study of Mesozoic and Palaeozoic petroleum geology in southern China and a summing‐up of the results of exploration, the authors tentatively put for...
The Mesozoic of Afghanistan
The Mesozoic of Afghanistan
ABSTRACT
This paper is a review of the geology of the widely distributed Mesozoic rocks of Afghanistan. The country is a mosaic of structural blocks in a variety of ...